Introduction to Car Brake Pads with Ceramic Formula
Ceramic brake pads are engineered using a high-performance Brake Pads Mixture that combines advanced Brake Pads Friction Materials to deliver superior braking efficiency and durability. This Brake Pads Formula integrates ceramic fibers, non-ferrous fillers, and proprietary bonding agents, offering a perfect balance of safety and environmental sustainability.
Technical Specifications
| Parameter | Value/Description |
|---|---|
| Friction Coefficient | 0.35–0.45 (μ) |
| Operating Temperature | -30°C to 800°C |
| Compressive Strength | ≥90 MPa |
| Density | 2.0–2.3 g/cm³ |
| Hardness (Rockwell) | 80–85 HRB |
| Certifications | SAE J661, ECE R90, ISO 9001 |
Advantages of Ceramic Brake Pads
- Low Noise & Vibration
- The Brake Pads Mixes reduce high-frequency squeal (<65 dB at 100 km/h) through embedded damping shims and ceramic particle alignment.
- Minimal Dust Generation
- Ceramic brake pads friction materials produce 70% less dust compared to semi-metallic formulas, preserving wheel aesthetics.
- Extended Lifespan
- Stable friction coefficient across temperatures ensures 50,000–70,000 km service life, 30% longer than organic pads.
- Corrosion Resistance
- Metal-free brake pads formula prevents rotor galvanic corrosion, ideal for humid coastal regions.
Storage & Packaging Guidelines
- Packaging:
- Individually wrapped in anti-static, moisture-proof bags.
- Stacked in reinforced cartons with “Fragile” and “Keep Dry” labels.
- Storage:
- Temperature: 5°C–30°C, away from direct sunlight.
- Relative humidity: <60% to prevent resin degradation.
Key Formula Components
The brake pads formula features:
- Friction Matrix: Ceramic fibers (35–40%), copper-free graphite (15–20%)
- Binders: Modified phenolic resin (12–15%)
- Reinforcements: Aramid pulp (5–8%), silica particles (8–10%)
This optimized brake pads mixture meets rigorous OEM standards for passenger vehicles and hybrid/electric cars.